SBAS649B June   2021  – June 2022 DAC12DL3200

PRODUCTION DATA  

  1. Features
  2. Applications
  3. Description
  4. Revision History
  5. Pin Configuration and Functions
  6. Specifications
    1. 6.1  Absolute Maximum Ratings
    2. 6.2  ESD Ratings
    3. 6.3  Recommended Operating Conditions
    4. 6.4  Thermal Information
    5. 6.5  Electrical Characteristics - DC Specifications
    6. 6.6  Electrical Characteristics - Power Consumption
    7. 6.7  Electrical Characteristics - AC Specifications
    8. 6.8  Timing Requirements
    9. 6.9  Switching Characteristics
    10. 6.10 Typical Characteristics
  7. Detailed Description
    1. 7.1 Overview
    2. 7.2 Functional Block Diagram
    3. 7.3 Feature Description
      1. 7.3.1 DAC Output Modes
        1. 7.3.1.1 NRZ Mode
        2. 7.3.1.2 RTZ Mode
        3. 7.3.1.3 RF Mode
        4. 7.3.1.4 2xRF Mode
      2. 7.3.2 DAC Output Interface
        1. 7.3.2.1 DAC Output Structure
        2. 7.3.2.2 Full-scale Current Adjustment
        3. 7.3.2.3 Example Analog Output Interfaces
      3. 7.3.3 LVDS Interface
        1. 7.3.3.1 MODE0: Two LVDS banks per channel
        2. 7.3.3.2 MODE1: One LVDS bank per channel
        3. 7.3.3.3 MODE2: Four LVDS banks, single channel mode
        4. 7.3.3.4 LVDS Interface Input Strobe
        5. 7.3.3.5 FIFO Operation
          1. 7.3.3.5.1 Using FIFO Delay Readback Values
          2. 7.3.3.5.2 FIFO Delay Handling
          3. 7.3.3.5.3 FIFO Delay and NCO Operation
          4. 7.3.3.5.4 FIFO Over/Under Flow Alarming
      4. 7.3.4 Multi-Device Synchronization (SYSREF+/-)
        1. 7.3.4.1 DACCLK Domain Synchronization
        2. 7.3.4.2 SYSREF Position Detector and Sampling Position Selection (SYSREF Windowing)
      5. 7.3.5 Alarms
    4. 7.4 Device Functional Modes
      1. 7.4.1 Direct Digital Synthesis (DDS) Mode
        1. 7.4.1.1 NCO Gain Scaling
        2. 7.4.1.2 NCO Phase Continuous Operation
        3. 7.4.1.3 Trigger Clock
    5. 7.5 Programming
      1. 7.5.1 Using the Serial Interface
        1. 7.5.1.1 SCS
        2. 7.5.1.2 SCLK
        3. 7.5.1.3 SDI
        4. 7.5.1.4 SDO
        5. 7.5.1.5 Serial Interface Operation
        6. 7.5.1.6 Streaming Mode
      2. 7.5.2 SPI Register Map
  8. Application and Implementation
    1. 8.1 Application Information
      1. 8.1.1 Startup Procedure with LVDS Input
      2. 8.1.2 Startup Procedure With NCO Operation
      3. 8.1.3 Interface Test Pattern and Timing Verification
    2. 8.2 Typical Application
      1. 8.2.1 Design Requirements
      2. 8.2.2 Detailed Design Procedure
      3. 8.2.3 Application Curves
    3. 8.3 Power Supply Recommendations
      1. 8.3.1 Power Up and Down Sequence
    4. 8.4 Layout
      1. 8.4.1 Layout Guidelines
      2. 8.4.2 Layout Example
  9. Device and Documentation Support
    1. 9.1 Receiving Notification of Documentation Updates
    2. 9.2 Support Resources
    3. 9.3 Trademarks
    4. 9.4 Electrostatic Discharge Caution
    5. 9.5 Glossary
  10. 10Mechanical, Packaging, and Orderable Information

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

Typical Characteristics

Typical values at TA = 25°C, nominal supply voltages, COARSE_CUR_A/B = 0xFF (IFS_SWITCH = 21 mA), output from VOUTA± in single-channel modes, AOUT = 0 dBFS, fCLK = 3.2 GHz in dual channel NRZ, RTZ and RF mode, fCLK = 6.4 GHz in dual channel 2xRF and single channel NRZ, RTZ and RF mode, filtered, SHUNTREF_EN = 0x0FFF (unless otherwise noted);
Figure 6-1 Output Current DNL vs Code
GUID-20210526-CA0I-NVBQ-W879-KVKFR60ZMH8C-low.png
fCLK = 6.4 GHz, relative to NRZ mode at low frequency, ripple at > 5 GHz are due to cable reflections
Figure 6-3 Single Channel: Output Power vs Output Frequency and Mode
GUID-20210526-CA0I-RTTV-F1GX-WHTS5FVP1PMH-low.png
fCLK = 6.4 GHz, relative to NRZ mode at low frequency, ripple at > 5 GHz are due to cable reflections
Figure 6-5 Single Channel RF Mode: Output Power vs Output Frequency
FSAMPLE = 3.2 GSPS, cable and transformer loss removed
Figure 6-7 Dual Channel Modes: DAC12DL3200EVM Output Power vs Output Frequency
GUID-20210527-CA0I-9RGJ-LBXJ-VLFRF5NRTQ9L-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-9 Dual Channel NRZ Mode: Single Tone Spectrum at 100 MHz
GUID-20210527-CA0I-LCJ0-L6J1-FB4FXWMPTPQV-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-11 Dual Channel NRZ Mode: Single Tone Spectrum at 1 GHz
GUID-20210527-CA0I-GNSW-329L-XDMVQF3QNZMV-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-13 Dual Channel NRZ Mode: Dual Tone Spectrum at 100 MHz ± 10 MHz
GUID-20210527-CA0I-4GTQ-W724-TN0JCCFD92VG-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-15 Dual Channel NRZ Mode: Dual Tone Spectrum at 1 GHz ± 10 MHz
GUID-20210527-CA0I-SVVD-BSNM-7GJGGJKZP83P-low.png
fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-17 Dual Channel RF Mode: Single Tone Spectrum at 1.7 GHz
GUID-20210527-CA0I-KXKH-LGCL-V2RPBG0D4C7B-low.png
fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-19 Dual Channel RF Mode: Single Tone Spectrum at 2.6 GHz
GUID-20210527-CA0I-XGKD-WZNW-M0MGVDBLXW8R-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-21 Dual Channel RF Mode: Dual Tone Spectrum at 1.7G Hz ± 10 MHz
GUID-20210527-CA0I-G9GC-9XSS-MPHHH22CTCGV-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-23 Dual Channel RF Mode: Dual Tone Spectrum at 2.6 GHz ± 10 MHz
GUID-20210527-CA0I-MWFS-HHNH-QQSG31BSZPHX-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-25 Dual Channel RTZ Mode: Single Tone Spectrum at 100 MHz
GUID-20210527-CA0I-WBBL-7JM4-XK3CRN6FFTP9-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-27 Dual Channel RTZ Mode: Single Tone Spectrum at 1 GHz
GUID-20210527-CA0I-Z5TL-BDPV-PZMKBH50NMG2-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-29 Dual Channel RTZ Mode: Dual Tone Spectrum at 100 MHz ± 10 MHz
GUID-20210527-CA0I-RXKB-RR7N-F91GMWTX3XTK-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-31 Dual Channel RTZ Mode: Dual Tone Spectrum at 1 GHz ± 10 MHz
GUID-20210527-CA0I-SF6C-MHFG-CZLMVRC5SBQ2-low.png
fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-33 Dual Channel 2xRF Mode: Single Tone Spectrum at 3.3 to 6.3 GHz
GUID-20210527-CA0I-GTMT-4JS6-KVPP0NC2MRV7-low.png
fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-35 Dual Channel 2xRF Mode: Single Tone Spectrum at 4.3 to 5.3 GHz
GUID-20210527-CA0I-TTS0-HZJG-R6DZJT27L4HC-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-37 Dual Channel 2xRF Mode: Dual Tone Spectrum at 3.3 to 6.3 GHz ± 10 MHz
GUID-20210527-CA0I-XCDZ-HFRP-PSB9LFCCXD3Z-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-39 Dual Channel 2xRF Mode: Dual Tone Spectrum at 4.3 to 5.3 GHz ± 10 MHz
GUID-20210527-CA0I-VM8V-VNX0-MRQL0KKFL23Z-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-41 Single Channel NRZ Mode: Single Tone Spectrum at 200 MHz
GUID-20210527-CA0I-79GT-BQLR-T6GVJVLJ15QQ-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-43 Single Channel NRZ Mode: Single Tone Spectrum at 2 GHz
GUID-20210527-CA0I-QC4F-GTG7-J8FZKKCH72XG-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-45 Single Channel NRZ Mode: Dual Tone Spectrum at 200 MHz ± 25 MHz
GUID-20210527-CA0I-TJRD-BNXD-0T5CLGJMKDSN-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-47 Single Channel NRZ Mode: Dual Tone Spectrum at 2 GHz ± 25 MHz
GUID-20210527-CA0I-QDPC-FQ0C-D8SB4DWH1CGF-low.png
fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-49 Single Channel RF Mode: Single Tone Spectrum at 3.4 GHz
GUID-20210527-CA0I-FV01-HVCP-3TB4DSCJG63W-low.png
fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-51 Single Channel RF Mode: Single Tone Spectrum at 5.2 GHz
GUID-20210527-CA0I-K23Q-RB8M-1L3MRV26NXCL-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-53 Single Channel RF Mode: Dual Tone Spectrum at 3.4 GHz ± 25 MHz
GUID-20210527-CA0I-GZQJ-ZJVT-PTMMZNTPKJHJ-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-55 Single Channel RF Mode: Dual Tone Spectrum at 5.2 GHz ± 25 MHz
GUID-20210527-CA0I-CSPM-BQHN-HHM3Q5FFR49S-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-57 Single Channel RTZ Mode: Single Tone Spectrum at 200 MHz
GUID-20210527-CA0I-H2CD-CQHJ-8HTFT86KRMLZ-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-59 Single Channel RTZ Mode: Single Tone Spectrum at 2 GHz
GUID-20210527-CA0I-L280-3LWC-9RKFGMXBQ1BQ-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-61 Single Channel RTZ Mode: Dual Tone Spectrum at 200 MHz ± 25 MHz
GUID-20210527-CA0I-39QR-94SC-146JW0ZS8DS9-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-63 Single Channel RTZ Mode: Dual Tone Spectrum at 2 GHz ± 25 MHz
GUID-20210517-CA0I-6X61-BLZF-JB9KHKMKVBZD-low.png
fCLK = 3.2 GHz
Figure 6-65 Dual Channel NRZ and RF Mode: SFDR vs Output Frequency and Output Current
GUID-20210517-CA0I-WLNB-NH5N-RPDBMZVB8TFN-low.png
fCLK = 3.2 GHz
Figure 6-67 Dual Channel NRZ and RF Mode: HD3 vs Output Frequency and Output Current
GUID-20210517-CA0I-FRKC-SLKM-RPK2JTK86DQS-low.png
fCLK = 3.2 GHz, tone spacing = 20 MHz
Figure 6-69 Dual Channel NRZ and RF Mode: IMD3 vs Output Frequency and Output Current
GUID-20210517-CA0I-T6Q1-K24L-ZZKRZHW77MHZ-low.png
fCLK = 3.2 GHz
Figure 6-71 Dual Channel NRZ and RF Mode: HD2 vs Output Frequency and Digital Level
GUID-20210517-CA0I-ZZMQ-7NPN-8PC09PMGXRMN-low.png
fCLK = 3.2 GHz
Figure 6-73 Dual Channel NRZ and RF Mode: NSD vs Output Frequency and Digital Level
GUID-20210526-CA0I-99W3-20C6-LDMMSXWHHWB6-low.png
fCLK = 3.2 GHz
Figure 6-75 Dual Channel RTZ Mode: SFDR vs Output Frequency and Digital Level
GUID-20210526-CA0I-SW8G-02KP-98HZFP39GX7P-low.png
fCLK = 3.2 GHz
Figure 6-77 Dual Channel RTZ Mode: HD3 vs Output Frequency and Digital Level
GUID-20210526-CA0I-1X3D-SRCD-Q9GJ8GWZ8093-low.png
fCLK = 3.2 GHz, tone spacing = 20 MHz
Figure 6-79 Dual Channel RTZ Mode: IMD3 vs Output Frequency and Digital Level
GUID-20210526-CA0I-1N1H-P6H1-S0T725KXRL2H-low.png
fCLK = 3.2 GHz
Figure 6-81 Dual Channel RTZ Mode: HD2 vs Output Frequency and Output Current
GUID-20210526-CA0I-X3KP-WXT2-DNJ1XR4V1LGP-low.png
fCLK = 3.2 GHz, 70 MHz offset
Figure 6-83 Dual Channel RTZ Mode: NSD vs Output Frequency and Output Current
GUID-20210527-CA0I-PMLF-ZLCH-0XRLWWXDRV11-low.png
fCLK = 6.4 GHz
Figure 6-85 Dual Channel 2xRF Mode: SFDR vs Output Frequency and Digital Level
GUID-20210527-CA0I-4JFN-XVVZ-ZDLD6GWWZQLK-low.png
fCLK = 6.4 GHz
Figure 6-87 Dual Channel 2xRF Mode: HD3 vs Output Frequency and Digital Level
GUID-20210527-CA0I-HSMP-Z2XS-0B9WXRBB7N42-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-89 Dual Channel 2xRF Mode: IMD3 vs Output Frequency and Digital Level
fCLK = 6.4 GHz
Figure 6-91 Dual Channel 2xRF Mode: HD2 vs Output Frequency and Output Current
GUID-20210527-CA0I-LL5K-QFNR-GLSTN9W0ZT2M-low.png
fCLK = 6.4 GHz
Figure 6-93 Dual Channel 2xRF Mode: NSD vs Output Frequency and Output Current
GUID-20210517-CA0I-09B9-LD48-C98LKBSQNGPN-low.png
fCLK = 6.4 GHz
Figure 6-95 Single Channel NRZ and RF Modes: SFDR vs Output Frequency and Output Current
GUID-20210517-CA0I-NWLK-V2H1-MXVSPKR0XXD3-low.png
fCLK = 6.4 GHz
Figure 6-97 Single Channel NRZ and RF Modes: HD3 vs Output Frequency and Output Current
GUID-20210517-CA0I-PV42-7JQT-HN5L7K6ZSJKB-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-99 Single Channel NRZ and RF Modes: IMD3 vs Output Frequency and Output Current
GUID-20210517-CA0I-HW8M-CMHF-VMGWZK3H63MF-low.png
fCLK = 6.4 GHz
Figure 6-101 Single Channel NRZ and RF Modes: HD2 vs Output Frequency and Digital Level
GUID-20210517-CA0I-QXM8-B4GT-NP9LDLWKWFMS-low.png
fCLK = 6.4 GHz
Figure 6-103 Single Channel NRZ and RF Modes: Noise Spectral Density vs Output Frequency and Digital Level
fCLK = 6.4 GHz
Figure 6-105 Single Channel RTZ Mode: SFDR vs Output Frequency and Output Current
GUID-20210526-CA0I-N1ZT-84CJ-0WKXDLXZ66LX-low.png
fCLK = 6.4 GHz
Figure 6-107 Single Channel RTZ Mode: HD3 vs Output Frequency and Output Current
GUID-20210526-CA0I-9DS8-2TX2-LGRHMWHMS4C5-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-109 Single Channel RTZ Mode: IMD3 vs Output Frequency and Output Current
GUID-20210526-CA0I-T4MD-6J9X-LJSZDW9SPPKP-low.png
fCLK = 6.4 GHz
Figure 6-111 Single Channel RTZ Mode: HD2 vs Output Frequency and Digital Level
GUID-20210526-CA0I-SPM3-ZCF7-WCLBZNDJF6LG-low.png
fCLK = 6.4 GHz, 70 MHz offset
Figure 6-113 Single Channel RTZ Mode: NSD vs Output Frequency and Digital Level
GUID-20210527-CA0I-RHSQ-1MLJ-DPS75BLLR6VK-low.png
Signal 90% Nyquist BW, 5% notch in center, PAR = 11.4 dB, fCLK = 3.2 GHz
Figure 6-115 Dual Channel NRZ and RF Modes: NPR vs Digital Level
GUID-20210527-CA0I-ZJQP-7NKG-M8SWWFQMLH4K-low.png
Signal 90% Nyquist BW, 5% notch in center, PAR = 11.4 dB, fCLK = 6.4 GHz
Figure 6-117 Dual Channel 2xRF Mode: NPR vs Digital Level
GUID-20210527-CA0I-JJGH-BKFG-W0PHVD6N1HDW-low.png
Signal 90% Nyquist BW, 5% notch in center, PAR = 11.4 dB, fCLK = 6.4 GHz
Figure 6-119 Single Channel RTZ Mode: NPR vs Digital Level
50 MHz tone spacing, -6dBFS/tone, all supplies changed together
Figure 6-121 Single Channel Mode: IMD3 vs Supply Voltage
50 MHz tone spacing, -6dBFS/tone
Figure 6-123 Single Channel Mode: IMD3 vs Temperature
Figure 6-125 Dual Channel Mode: Power Dissipation vs Sample Rate
Figure 6-127 Dual Channel Mode: IVDDA vs Sample Rate
Figure 6-129 Dual Channel Mode: IVDDCLK vs Sample Rate
Figure 6-131 Dual Channel Mode: IVDDE vs Sample Rate
Figure 6-133 Dual Channel Mode: IVEE18 vs Sample Rate
Figure 6-135 Single Channel Mode: IVDDA18 vs Sample Rate
Figure 6-137 Single Channel Mode: IVDDCLK18 vs Sample Rate
Figure 6-139 Single Channel Mode: IVDDDIG vs Sample Rate
Figure 6-141 Single Channel Mode: IVDDIO vs Sample Rate
Figure 6-2 Output Current INL vs Code
GUID-20210526-CA0I-VSDS-HZNQ-XDXBQP7F7X0K-low.png
fCLK = 6.4 GHz, relative to NRZ mode at low frequency, ripple at > 5 GHz are due to cable reflections
Figure 6-4 Single Channel NRZ Mode: Output Power vs Output Frequency
FSAMPLE = 6.4GSPS, cable and transformer loss removed
Figure 6-6 Single Channel Mode: DAC12DL3200EVM Output Power vs Output Frequency
GUID-20210526-CA0I-PBPL-C3C4-L2MFJ3R3Z6LW-low.png
fCLK = 6.4 GHz, relative to NRZ mode at low frequency, ripple at > 5 GHz are due to cable reflections
Figure 6-8 Single Channel RTZ Mode: Output Power vs Output Frequency
GUID-20210527-CA0I-RLWM-SV4H-TKTXSS24FK4P-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-10 Dual Channel NRZ Mode: Single Tone Spectrum at 500 MHz
GUID-20210527-CA0I-4JZK-14GR-8XQFDQTHCMTM-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-12 Dual Channel NRZ Mode: Single Tone Spectrum at 1.5 GHz
GUID-20210527-CA0I-DPHT-QJXV-2ZRR3GGH5Q95-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-14 Dual Channel NRZ Mode: Dual Tone Spectrum at 500 MHz ± 10 MHz
GUID-20210527-CA0I-0Q1R-MVJT-MQZ2PF16Z17Q-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-16 Dual Channel NRZ Mode: Dual Tone Spectrum at 1.5 GHz ± 10 MHz
GUID-20210527-CA0I-NBXB-NXG8-XCMRBSHQ50GQ-low.png
fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-18 Dual Channel RF Mode: Single Tone Spectrum at 2.1 GHz
GUID-20210527-CA0I-GBDC-D0VH-S18V6LP99SLQ-low.png
fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-20 Dual Channel RF Mode: Single Tone Spectrum at 3.1 GHz
GUID-20210527-CA0I-ZF9J-22H7-69S32R54CGLH-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-22 Dual Channel RF Mode: Dual Tone Spectrum at 2.1 GHz ± 10 MHz
GUID-20210527-CA0I-6JL9-SB8D-X5C5FDJRJKKQ-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st, 2nd and 3rd Nyquist Zones Displayed
Figure 6-24 Dual Channel RF Mode: Dual Tone Spectrum at 3.1 GHz ± 10 MHz
GUID-20210527-CA0I-GNJX-GXQG-C9GVNHCNVNTC-low.png
fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-26 Dual Channel RTZ Mode: Single Tone Spectrum at 500 MHz
GUID-20210527-CA0I-HKP9-RSJR-CK0R8HSXHXK9-low.png
fCLK = 3.2G Hz, 1st and 2nd Nyquist Zones Displayed
Figure 6-28 Dual Channel RTZ Mode: Single Tone Spectrum at 1.5 GHz
GUID-20210527-CA0I-Z7P4-LRN6-ZGHF0BND4MJQ-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-30 Dual Channel RTZ Mode: Dual Tone Spectrum at 500 MHz ± 10 MHz
GUID-20210527-CA0I-1FNH-9G4J-RG2R2VJFV2D2-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-32 Dual Channel RTZ Mode: Dual Tone Spectrum at 1.5 GHz ± 10 MHz
GUID-20210527-CA0I-GTMT-4JS6-KVPP0NC2MRV7-low.png
fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-34 Dual Channel 2xRF Mode: Single Tone Spectrum at 3.8 to 5.8 GHz
GUID-20210527-CA0I-BF3S-0K8Q-RNZGZTFKD5C7-low.png
fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-36 Dual Channel 2xRF Mode: Single Tone Spectrum at 4.7 to 4.9 GHz
GUID-20210527-CA0I-B860-FWSF-2V1XPRN2QJM1-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-38 Dual Channel 2xRF Mode: Dual Tone Spectrum at 3.8 to 5.8 GHz ± 10 MHz
GUID-20210527-CA0I-QNXS-53VB-ZBCF0FFPSLNG-low.png
each tone at -6 dBFS, fCLK = 3.2 GHz, 1st through 5th Nyquist Zones Displayed
Figure 6-40 Dual Channel 2xRF Mode: Dual Tone Spectrum at 4.7 to 4.9 GHz ± 10 MHz
GUID-20210527-CA0I-CN7D-SVX6-BG7PD5J3FBFC-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-42 Single Channel NRZ Mode: Single Tone Spectrum at 1 GHz
GUID-20210527-CA0I-2TX0-VPB4-VWVL42HM40BB-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-44 Single Channel NRZ Mode: Single Tone Spectrum at 3 GHz
GUID-20210527-CA0I-NXXG-X5P7-VJNPWGW78TP9-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-46 Single Channel NRZ Mode: Dual Tone Spectrum at 1 GHz ± 25 MHz
GUID-20210527-CA0I-R7LN-TPVV-NKWBC2XPXGVT-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-48 Single Channel NRZ Mode: Dual Tone Spectrum at 3 GHz ± 25 MHz
GUID-20210527-CA0I-G7QV-WHFZ-NWDMJNBQSNZG-low.png
fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-50 Single Channel RF Mode: Single Tone Spectrum at 4.2 GHz
GUID-20210527-CA0I-2RF7-SWLK-SPV8B8SLP2K0-low.png
fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-52 Single Channel RF Mode: Single Tone Spectrum at 6.2 GHz
GUID-20210527-CA0I-NNSG-STDL-RF4QKM6ZH0PL-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-54 Single Channel RF Mode: Dual Tone Spectrum at 4.2 GHz ± 25 MHz
GUID-20210527-CA0I-1RRX-VMH8-TH7DVS9FR845-low.png
each tone at -6 dBFS, fCLK = 6.4 GHz, 1st through 3rd Nyquist Zones Displayed
Figure 6-56 Single Channel RF Mode: Dual Tone Spectrum at 6.2 GHz ± 25 MHz
GUID-20210527-CA0I-9LNP-GS9S-QCH9XMKMZQ5G-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-58 Single Channel RTZ Mode: Single Tone Spectrum at 1 GHz
GUID-20210527-CA0I-GQ9G-Q764-HGWLBRDWKPDZ-low.png
fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-60 Single Channel RTZ Mode: Single Tone Spectrum at 3 GHz
GUID-20210527-CA0I-ZQMS-4GVR-VZLV96DD78CJ-low.png
each tone at -6d BFS, fCLK = 6.4 GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-62 Single Channel RTZ Mode: Dual Tone Spectrum at 1 GHz ± 25 MHz
GUID-20210527-CA0I-BW4W-WZWR-JZRGJLMGF1DB-low.png
each tone at -6d BFS, fCLK = 6.4GHz, 1st and 2nd Nyquist Zones Displayed
Figure 6-64 Single Channel RTZ Mode: Dual Tone Spectrum at 3 GHz ± 25 MHz
GUID-20210517-CA0I-JHH4-JDPJ-GSQQ5N2CS0DF-low.png
fCLK = 3.2 GHz
Figure 6-66 Dual Channel NRZ and RF Mode: HD2 vs Output Frequency and Output Current
GUID-20210517-CA0I-RXR9-HDDV-LFDNFSK9MH59-low.png
fCLK = 3.2 GHz
Figure 6-68 Dual Channel NRZ and RF Mode: NSD vs Output Frequency and Output Current
GUID-20210517-CA0I-XTKT-GQLB-RZCRL45HBMWF-low.png
fCLK = 3.2 GHz
Figure 6-70 Dual Channel NRZ and RF Mode: SFDR vs Output Frequency and Digital Level
GUID-20210517-CA0I-8698-S4RD-HSZD94CLM7HG-low.png
fCLK = 3.2 GHz
Figure 6-72 Dual Channel NRZ and RF Mode: HD3 vs Output Frequency and Digital Level
GUID-20210517-CA0I-NPH5-6ZVW-P8KMLBVRGLFZ-low.png
fCLK = 3.2 GHz, tone spacing = 20 MHz
Figure 6-74 Dual Channel NRZ and RF Modes: IMD3 vs Output Frequency and Digital Level
GUID-20210526-CA0I-W05B-RVP3-RCD3HNZMPC2D-low.png
fCLK = 3.2 GHz
Figure 6-76 Dual Channel RTZ Mode: HD2 vs Output Frequency and Digital Level
GUID-20210526-CA0I-WDVL-0KV9-F85MWN45QGGT-low.png
fCLK = 3.2 GHz, 70 MHz offset
Figure 6-78 Dual Channel RTZ Mode: NSD vs Output Frequency and Digital Level
GUID-20210526-CA0I-KJ1N-55DZ-TTNJHGLVTLMG-low.png
fCLK = 3.2 GHz
Figure 6-80 Dual Channel RTZ Mode: SFDR vs Output Frequency and Output Current
GUID-20210526-CA0I-VT74-LJ4H-FZSNPXP24G1X-low.png
fCLK = 3.2 GHz
Figure 6-82 Dual Channel RTZ Mode: HD3 vs Output Frequency and Output Current
GUID-20210526-CA0I-0SHG-N340-ZQFFQ0GM40T2-low.png
fCLK = 3.2 GHz, tone spacing = 20 MHz
Figure 6-84 Dual Channel RTZ Mode: IMD3 vs Output Frequency and Output Current
GUID-20210527-CA0I-KLMH-4FFQ-BPWT920ZQWZV-low.png
fCLK = 6.4 GHz
Figure 6-86 Dual Channel 2xRF Mode: HD2 vs Output Frequency and Digital Level
GUID-20210527-CA0I-KDJF-WPRP-ZXNSPXPQLCC3-low.png
fCLK = 6.4 GHz
Figure 6-88 Dual Channel 2xRF Mode: NSD vs Output Frequency and Digital Level
fCLK = 6.4 GHz
Figure 6-90 Dual Channel 2xRF Mode: SFDR vs Output Frequency and Output Current
GUID-20210527-CA0I-ZDJ2-7F6M-VV4C2R94WDRK-low.png
fCLK = 6.4 GHz
Figure 6-92 Dual Channel 2xRF Mode: HD3 vs Output Frequency and Output Current
GUID-20210527-CA0I-1G9J-T1HV-31FQ1PLCGM7W-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-94 Dual Channel 2xRF Mode: IMD3 vs Output Frequency and Output Current
GUID-20210517-CA0I-DGBH-JCBS-VFBJD0GVHVJL-low.png
fCLK = 6.4 GHz
Figure 6-96 Single Channel NRZ and RF Modes: HD2 vs Output Frequency and Output Current
GUID-20210517-CA0I-D7KK-DM0C-T8G35FJ3MSV0-low.png
fCLK = 6.4 GHz
Figure 6-98 Single Channel NRZ and RF Modes: NSD vs Output Frequency and Output Current
GUID-20210517-CA0I-XTMM-ZZJF-6LDKKRTL8PR5-low.png
fCLK = 6.4 GHz
Figure 6-100 Single Channel NRZ and RF Modes: SFDR vs Output Frequency and Digital Level
GUID-20210517-CA0I-4VF2-QPGC-XJKRKCLTMKBV-low.png
fCLK = 6.4 GHz
Figure 6-102 Single Channel NRZ and RF Modes: HD3 vs Output Frequency and Digital Level
GUID-20210517-CA0I-DDQM-6RZS-NKFWTMFHNWFM-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-104 Single Channel NRZ and RF Modes: IMD3 vs Output Frequency and Digital Level
fCLK = 6.4 GHz
Figure 6-106 Single Channel RTZ Mode: HD2 vs Output Frequency and Output Current
GUID-20210526-CA0I-Z1VM-GPN4-GNVS795MZVR8-low.png
fCLK = 6.4 GHz, 70 MHz offset
Figure 6-108 Single Channel RTZ Mode: NSD vs Output Frequency and Output Current
GUID-20210526-CA0I-XQ8X-DWGD-MBLJSTDS0D5Q-low.png
fCLK = 6.4 GHz
Figure 6-110 Single Channel RTZ Mode: SFDR vs Output Frequency and Digital Level
GUID-20210526-CA0I-NWFZ-HN9Q-80J5BNPRKPMK-low.png
fCLK = 6.4 GHz
Figure 6-112 Single Channel RTZ Mode: HD3 vs Output Frequency and Digital Level
GUID-20210526-CA0I-7RFL-FV0N-DDB55JSW67VC-low.png
fCLK = 6.4 GHz, tone spacing = 20 MHz
Figure 6-114 Single Channel RTZ Mode: IMD3 vs Output Frequency and Digital Level
GUID-20210527-CA0I-0K0V-GBTJ-V11XLBVLP1NX-low.png
Signal 90% Nyquist BW, 5% notch in center, PAR = 11.4 dB, fCLK = 3.2 GHz
Figure 6-116 Dual Channel RTZ Mode: NPR vs Digital Level
GUID-20210527-CA0I-TMD9-Z09R-SJFRWTZ58HJR-low.png
Signal 90% Nyquist BW, 5% notch in center, PAR = 11.4 dB, fCLK = 6.4 GHz
Figure 6-118 Single Channel NRZ and RF Modes: NPR vs Digital Level
FOUT = 995 MHz, input clock phase noise removed
Figure 6-120 Single Channel NRZ Mode: Additive Phase Noise
70 MHz offset, all supplies changed together
Figure 6-122 Single Channel Mode: NSD vs Supply Voltage
70 MHz offset
Figure 6-124 Single Channel Mode: NSD vs Temperature
Figure 6-126 Dual Channel Mode: IVDDA18 vs Sample Rate
Figure 6-128 Dual Channel Mode: IVDDCLK18 vs Sample Rate
Figure 6-130 Dual Channel Mode: IVDDDIG vs Sample Rate
Figure 6-132 Dual Channel Mode: IVDDIO vs Sample Rate
Figure 6-134 Single Channel Mode: Power Dissipation vs Sample Rate
Figure 6-136 Single Channel Mode: IVDDA vs Sample Rate
Figure 6-138 Single Channel Mode: IVDDCLK vs Sample Rate
Figure 6-140 Single Channel Mode: IVDDE vs Sample Rate
Figure 6-142 Single Channel Mode: IVEE vs Sample Rate